Steer by wire drift compensation

Having thus described the invention, it is claimed: 1 . A steer by wire system, the system comprising: a controller operable to, responsive to a handwheel orientation defined by an angular position of a handwheel having a handwheel orientation offset value corresponding to a substantially straight desired direction of travel with respect to a predetermined handwheel zero value and at least one of a yaw rate associated with a change rate of a yaw position about a yaw axis being less than a predetermined yaw rate threshold or a lateral acceleration being less than a predetermined lateral acceleration threshold, operate a roadwheel actuator such that a position command to the roadwheel actuator based on the handwheel orientation corresponding to the handwheel orientation offset value in an opposite direction to reduce a difference between the handwheel orientation offset value and the predetermined handwheel zero value. 2 . The steer by wire system of claim 1 , wherein the controller is operable to operate the roadwheel actuator to reduce the difference until the predetermined handwheel zero value corresponds to the substantially straight desired direction of travel. 3 . The steer by wire system of claim 1 , wherein the substantially straight desired direction of travel is defined by a predetermined deadband threshold. 4 . The steer by wire system of claim 1 , wherein the controller is further operable to receive the handwheel orientation and the yaw rate. 5 . The steer by wire system of claim 1 , wherein the controller is further operable to receive instructions to operate the roadwheel actuator based on the handwheel orientation offset value and the yaw rate to reduce the difference. 6 . The steer by wire system of claim 1 , wherein the roadwheel actuator is a power steering electric motor configured to operate a pinion associated with a rack. 7 . The steer by wire system of claim 1 , wherein the roadwheel actuator is operated responsive to the handwheel orientation offset value being less than a predetermined handwheel orientation threshold. 8 . An apparatus comprising: a controller configures to: apply a position command to a roadwheel actuator that reduces a difference between a handwheel orientation offset value and a predetermined handwheel zero value, wherein the controller applies the position command to the roadwheel actuator responsive to (i) a handwheel orientation defined by an angular position of a handwheel having a handwheel orientation offset value corresponding to a substantially straight desired direction of travel with respect to a predetermined handwheel zero value, and (ii) at least one of: a yaw rate associated with a change rate of a yaw position about a yaw axis being less than a predetermined yaw rate threshold; and a lateral acceleration being less than a predetermined lateral acceleration threshold. 9 . The apparatus of claim 8 , wherein the controller applies the position command to the roadwheel actuator to reduce the difference until the predetermined handwheel zero value corresponds to the substantially straight desired direction of travel. 10 . The apparatus of claim 8 , wherein the substantially straight desired direction of travel is defined by a predetermined deadband threshold. 11 . The apparatus of claim 8 , wherein the controller is further configured to receive the handwheel orientation and the yaw rate. 12 . The apparatus of claim 8 , wherein the controller is further configured to receive instructions to operate the roadwheel actuator based on the handwheel orientation offset value and the yaw rate to reduce the difference. 13 . The apparatus of claim 8 , wherein the roadwheel actuator is a power steering electric motor configured to operate a pinion associated with a rack. 14 . The apparatus of claim 8 , wherein the roadwheel actuator is operated responsive to the handwheel orientation offset value being less than a predetermined handwheel orientation threshold. 15 . The apparatus of claim 8 , wherein the handwheel actuator is a handwheel electric motor configured to apply the handwheel torque to the handwheel. 16 . The apparatus of claim 8 , wherein the predetermined handwheel orientation threshold is based on a vehicle speed. 17 . A controller program product of a steer by wire system, the controller program product comprising: a controller readable storage medium having program instructions embodied thereon and executable by a controller to receive a handwheel orientation defined by an angular position of a handwheel having a handwheel orientation offset value corresponding to a substantially straight desired direction of travel with respect to a predetermined handwheel zero value less than a predetermined handwheel orientation threshold; receive a yaw rate associated with a rate of a change of a yaw position about a yaw axis being less than a predetermined yaw rate threshold; and operate a handwheel actuator such that a torque command to the handwheel actuator based on a rack force observer is a magnitude corresponding to the handwheel orientation offset value in an opposite direction to reduce a difference between a handwheel torque and a steady state resistance torque. 18 . The controller program product of claim 17 further comprising, operate a roadwheel actuator such that a position command to the roadwheel actuator based on the handwheel orientation is the magnitude corresponding to the handwheel orientation offset value in the opposite direction to reduce the difference between the handwheel orientation offset value and the predetermined handwheel zero value. 19 . The controller program product of claim 18 , wherein the roadwheel actuator is operated to reduce the difference until the predetermined handwheel zero value corresponds to the substantially straight desired direction of travel. 20 . The controller program product of claim 19 , wherein the substantially straight desired direction of travel is defined by a predetermined deadband threshold.